EP0519467A1

EP0519467A1 - Printing apparatus for producing liquid crystal devices

Info

Publication number: EP0519467A1
Application number: EP92110304A
Authority: EP
Inventors: Yasuyuki c/o Canon Kabushiki Kaisha Watanabe; Toshifumi C/O Canon Kabushiki Kaisha Yoshioka; Keishi c/o Canon Kabushiki Kaisha Danjo
Original assignee: Canon Inc
Current assignee: Canon Inc
Priority date: 1991-06-20
Filing date: 1992-06-17
Publication date: 1992-12-23
Anticipated expiration: 2012-06-17
Also published as: DE69214527T2; EP0519467B1; KR970000775B1; ATE144182T1; JPH04371838A; DE69214527D1; US5639511A

Abstract

In a printing apparatus having a blade-form ink extender and an ink extension member for extending an ink thereon in association with the ink extender, there is provided a means for removing an excess of the ink from the ink extender and/or and the ink extension member. The printing apparatus is suitably used for forming a film of an organic polymer or an inorganic oxide in a process for production of a liquid crystal device.

Description

FIELD OF THE INVENTION AND RELATED ART

The present invention relates to a transfer printing system wherein an ink is extended on an extension member by an extender blade, the extended ink is taken up by a printing plate, and the resultant ink image on the plate is transferred to a substrate to be printed.
In recent years, a flexographic apparatus has been introduced in a patterned film forming step in a liquid crystal cell production process, and the applicability thereof to a wide scope of materials has called attention. For example, the utilization of a flexographic apparatus has been considered, first for application of an alignment material, such as polyimide, and also for application of an insulating material to be formed by sintering, a sealing material and various resists.
The advantages accompanying the use of a flexographic apparatus, e.g., when used in production of liquid crystal cells, may include:

(1) a decrease in production cost due to omission of a patterning step,
(2) an improvement in product performance due to removal of adverse effects accompanying the use of a resist and a patterning step,
(3) a reduction of an equipment cost and an increase in throughput compared with the case of using a film-forming apparatus,
(4) an improved performance due to protection of a print surface compared with the case of using the screen printing.

Thus, the advantages are extensive and remarkable including improvements in liquid crystal cell performances, decrease in production cost and enhanced productivity.
A commercially available example of the flexographic apparatus which may be used for the above purpose, is "Angstromer" (trade name, available from Nihon Shashin Insatsu K.K.). The apparatus has been characterized by its capability of controlling a thin film thickness with the use of an ink having a relatively low viscosity of from several cp (centipoise) to two-to-three hundreds cp.
The apparatus is provided with two types of printing mechanisms as shown in Figures 5 and 6. According to these mechanism, an ink 3 is extended on an extension member of an extension roller 2 (Figure 5) or an extension plate 8 (Figure 6), respectively, of a metal by a blade-form extender member, such as a doctor blade 1, and the extended ink is taken up by a printing plate 5 of a rubber fastened to a cylinder roller 4 and transferred to a rigid substrate to be printed (as shown in Figure 7 corresponding to Figure 6), such as a glass plate 6 supported on a movable stage 7 (Figure 5) or a fixed stage 7a (Figure 6). An excessive amount of the ink on the extension member (8, 8a) is removed by the extender blade and received by an ink-receiving pan (9, 9a).
The printed film thickness is principally controlled by the viscosity of the ink and the rate of opening and depth of a fine groove pattern formed on the extension roller 2 or extension plate 8.
In operation of such a transfer printing apparatus by using a wider scope of ink materials, there has been encountered a difficulty arising from differences in viscosity and volatility of the inks which is expected to be solved by an improvement in the apparatus.
A difficulty is encountered when an ink having a viscosity of 500 cp or higher is used in the apparatus shown in Figure 5. More specifically, an excessive amount of the ink remains at the tip of the doctor blade 1, whereby the extending pressure exerted by the doctor blade 1 is affected by the remaining ink to change the extending and therefore the printing conditions.
In the case of operating the apparatus shown in Figure 6 by using an ink having a viscosity of 25 cp to 1,000 cp, an amount 3a of the ink remaining at the tip of the doctor blade is liable to fall on the extension plate 8 to cause a printing failure in the operation state shown in Figure 7.

SUMMARY OF THE INVENTION

In view of the above problems, a principal object of the present invention is to provide a transfer printing apparatus capable of being applied to a wider scope of inks having a wider viscosity range while solving the above problems.
Another object of the present invention is to provide a process for producing liquid crystal devices capable of showing an improved productivity by using such a transfer printing apparatus.
According to the present invention, there is provided a transfer printing apparatus, comprising: a projecting extender, an extension member for extending an ink thereon in association with the projecting extender, a printing plate for taking up the extended ink and transferring the ink to a substrate to be printed, and also a removal means for an excess of the ink after extension from the projecting extender and/or the extension member.
According to anothoer aspect of the present invention, there is provided a process for producing a liquid crystal device including a step of applying a solution of an organic polymer or an inorganic oxide precursor to form a film of an organic polymer or an inorganic oxide by using the above-mentioned transfer printing apparatus.
These and other objects, features and advantages of the present invention will become more apparent upon a consideration of the following description of the preferred embodiments of the present invention taken in conjunction with the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

Figures 1C - 1C are side views for illustrating the extending and ink-removing actions of an extension roller in a flexographic apparatus according to an embodiment of the present invention.
Figure 2 is a perspective view of the extension roller in Figure 1.
Figure 3 is a perspective view of another extension roller usable in the apparatus of Figure 1.
Figures 4A - 4E are side views for illustrating the extending and ink-removing actions of an extension plate in a flexographic apparatus according to another embodiment of the present invention.
Figure 5 is a side view for illustrating a printing operation of a printing mechanism used in a conventional flexographic apparatus.
Figure 6 is a side view for illustrating an extending operation of another printing mechanism used in a conventional flexographic apparatus.
Figure 7 is a side view for illustrating a printing operation of the printing mechanism shown in Figure 6.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

In the present invention, a roller-shaped extension member, for example, may be provided with a groove to remove an excessive amount of ink, and a flat plate-shaped extension member may be provided with an ink-removing member which is attached by an extender blade after passing the ink-extension surface of the extension plate to remove an excess ink.
The transfer printing apparatus according to the present invention may particularly suitably be used for applying a solution containing an organic polymer or an inorganic oxide precursor.
Hereinbelow, some preferred embodiments of the present invention will be described with reference to the drawings.
Figures 1A - 1C illustrate a structure and an action of a printing mechanism, particularly an extension mechanism, in a flexographic apparatus according to an embodiment of the present invention. Referring to these figures, the mechanism includes a doctor blade 1 and an extension roller 2 equipped with a groove 2a, and is suitably used in a printing apparatus of the type using an extension roller as shown in Figure 5. As shown in Figures 1A - 1C, the extension roller 2 is provided with a groove 2a for removing an excess of ink 3a remaining on the doctor blade 1.
More specifically, an ink 3 is extended on the extension roller 2 by the doctor blade 1 (Figure 1A), and an excess 3a of the ink remaining at the tip of the doctor blade is caused to fall in the groove 2a (Figure 1B) and further scraped off by the edge of the groove 2a (Figure 1C). As a result, it has been confirmed that inks with a broader range of viscosity can be extended and applied without causing extension irregularity, and a continuous running time is remarkably prolonged by suppressing a viscosity increase of the ink left attached to the tip of the doctor blade 1.
In this instance, the groove 2a of the extension roller 2 can be formed in parallel with the rotation axis of the roller 2 as shown in Figure 3 but may preferably be formed obliquely with respect to the rotation axis of the roller 2 as shown in Figure 2 in view of the ink-scraping effect and the protection of the doctor blade 1.
Figures 4A - 4E are side views for illustrating a structure and a series of action of a printing mechanism, particularly an extension mechanism, in a flexographic apparatus according to another embodiment of the present invention. Figure 4A shows a state of extension, and Figure 4C shows a state of scraping-off. Referring to Figures 4A - 4E, the mechanism includes a doctor blade 1, an extension plate 8, an ink receiver pan 9a and an ink-removing member 10. The mechanism is suitably used in a printing apparatus of the type using an extension plate as shown in Figures 6 and 7. As shown in Figure 4A in comparison with Figure 6, for example, the mechanism is provided with an ink-removing member 10 in the ink receiver pan 9a. In a specific embodiment, the ink-removing member 10 was formed as a cylindrical bar of polyester.
As a result, it has become possible to prevent an excess 3a of the ink attached to the tip of the doctor blade 1 from falling on the extension plate in a printing step as shown in Figure 7 (corresponding to Figure 4E) by scraping the excess off by the ink-removing member 10 in advance (Figures 4B - 4D).
As described hereinabove, according to the present invention, a means for removing an excess of ink from an ink-extender member and an ink extension member is provided, whereby a transfer printing apparatus has become applicable to a wider scope of materials or inks having a broader viscosity range, thus resulting in an enhanced productivity.
In a transfer printing apparatus having a blade-form ink extender and an ink extension member for extending an ink thereon in association with the ink extender, there is provided a means for removing an excess of the ink from the ink extender and/or and the ink extension member. The transfer printing apparatus is suitably used for forming a film of an organic polymer or an inorganic oxide in a process for production of a liquid crystal device.

Claims

A transfer printing apparatus, comprising: a projecting extender, an extension member for extending an ink thereon in association with the projecting extender, a printing plate for taking up the extended ink and transferring the ink to a substrate to be printed, and also a removal means for an excess of the ink after extension from the projecting extender and/or the extension member.
An apparatus according to Claim 1, wherein said projecting extender is in the form of a blade.
An apparatus according to Claim 1, wherein said extension member comprises an extension roller and said removal means comprises a groove provided in the surface of the extension roller.
An apparatus according to Claim 3, wherein said groove is formed obliquely with respect to the rotation axis of the extension roller.
An apparatus according to Claim 1, wherein said extension member comprises an extension plate and said removal member comprises a member for contacting the extender to scrape off the excess of the ink after an extension operation.
An apparatus according to Claim 5, wherein said removal member comprises a cylindrical bar formed of a synthetic resin disposed in an ink-receiver pan.
A process for producing a liquid crystal device including a step of applying a solution of an organic polymer or an inorganic oxide precursor to form a film of an organic polymer or an inorganic oxide by means of a transfer printing apparatus according to Claim 1.